A case study in aerospace manufacturing provides an overview of how physics-informed digital twin systems transform robotics processes—from adaptive process planning and real-time process monitoring ...

Researchers at Seoul National University and Kyung Hee University report a framework to control collective motions, such as ring, clumps, mill, flock, by training a physics-informed AI to learn the ...

Advanced motion systems are turning machines into coordinated, adaptable platforms. Catch all the highlights from Motion Systems Takeover Week in one place.

Simulating physics is central to robotics: before a robot ever moves in the real world, much of its learning, testing, and control happens in a virtual environment. But traditional simulators often ...

Although soft-bodied robots themselves can be fairly simple, low-cost devices, they typically require complex onboard electronics to control their locomotion. Such is not the case with a new bot, ...

Different insects flap their wings in different manners. Understanding the variations between these modes of flight may help scientists design better and more efficient flying robots in the future.